I'm inexperienced in Python and started with Python 3.4.

I read over the Python 3.x documentation on loop idioms, and haven't found a way of constructing a familiar C-family for-loop, i.e.

   for (i = 0; i < n; i++) {
       A[i] = value;

Writing a for-loop like this in Python seems all but impossible by design. Does anyone know the reason why Python iteration over a sequence follows a pattern like

for x in iterable: # e.g. range, itertools.count, generator functions

Is this more efficient, convenient, or reduces index-out-of-bounds exception?

  • 3
    Uh, the reason? Guido thinks for i in range(n): is fine. See PEP284. – NightShadeQueen Jul 14 '15 at 0:25
  • @JGreenwell: That's hardly a useful tag! – Lightness Races in Orbit Jul 14 '15 at 1:04
  • @LightnessRacesinOrbit the question is about "why one type of for loop is preferred over another" - tags should reflect what the question is about (here it is about for-loops and does not just contain them) and be useful for future searching: adding this tag fulfills both. Actually I would think that the rejection reason "to small an edit" would be more acceptable (considered it as too small but cite my above reasons for why) – LinkBerest Jul 14 '15 at 1:14
  • 1
    The C syntax was settled on relatively early and decisions reflected common practical situations at that time. Languages that have come later have the benefit of hindsight. Avoiding off-by-one-errors is a big incentive to try different approaches. – John La Rooy Jul 14 '15 at 3:49
for lower <= var < upper:

That was the proposed syntax for a C-style loop. I say "was the proposed syntax", because PEP 284 was rejected, because:

Specifically, Guido did not buy the premise that the range() format needed fixing, "The whole point (15 years ago) of range() was to *avoid* needing syntax to specify a loop over numbers. I think it's worked out well and there's nothing that needs to be fixed (except range() needs to become an iterator, which it will in Python 3.0)."

So no for lower <= var < upper: for us.

Now, how to get a C-style loop? Well, you can use range([start,]end[,step]).

for i in range(0,len(blah),3):
    blah[i] += merp #alters every third element of blah
                    #step defaults to 1 if left off

You can enumerate if you need both index and value:

for i,j in enumerate(blah):

If you wanted to look at two (or more!) iterators together you can zip them (Also: itertools.izip and itertools.izip_longest)

for i,j in zip(foo,bar):
    if i == j: print("Scooby-Doo!") 

And finally, there's always the while loop

i = 0
while i < upper:
    A[i] = b

Addendum: There's also PEP 276, which suggested making ints iterable, which was also rejected. Still would have been half-open

  • That proposal is easy to read, but Guido's rejection looks justified (although range would be clearer if the start, stop parameters were inclusive bounds, as count appears to be a more fitting name for stop, at least based on the usage of range in examples I've seen...). In certain problems it would be easier to use range modified as: range(L, R if L == 0 else R + 1) assuming interval [L, R]. – codeReview Jul 14 '15 at 6:11
  • the answer is confusing. Why would you put unrelated non-Python syntax at the top? (there are many rejected ideas) I don't see the idiomatic Python equivalent of: for (i = 0; i < n; i++) A[i] = value; – jfs Jul 16 '15 at 14:46
  • for i in range(n): A[i] = value and the while loop would both work for that case. – NightShadeQueen Jul 16 '15 at 15:15

range(n) produces a suitable iterable :)

for i in range(n):
    A[i] = value

for the more general case (not just counting) you should transform to a while loop. eg

i = 0
while i < n:
    A[i] = value
    i += 1
  • 1
    I know this might be natural to some, but it's worth noting that range(n) returns a generator-like object with "elements" in the range [0, n) in Python 3. Python 2's range returns a list object. – erip Jul 14 '15 at 0:27
  • I didn't find many examples of while usage in the documentation, and yeah it seems faster to iterate-and-mutate a mutable sequence with just two integers to control iteration. Still, I'm picking up Python for rapidly solving code problems, not so much performance. But I do wonder if the cost of invoking the for i in iterable, or calling a generator function (like range, enumerate, itertools.count) would run a little slower than the while loop pattern in your answer. – codeReview Jul 14 '15 at 6:35
  • 1
    @codeReview, depends on the implementation you are using. while loop is faster in pypy, but slower under cPython. In either case it's a micro optimisation and wouldn't be the first place i'll be looking to get better performance. pypy was ~30 times faster for a loop than cPython, so if you are writing code with lots of loops it's something to consider. – John La Rooy Jul 14 '15 at 6:46
  • I've been using CPython 3.4.0 64-bit, as python.org makes it easily accessible for beginners. I couldn't resist trying out NumPy, but for now I'm just working on becoming fluent with the built-in modules of CPython before I move on to other flavors. I should probably take the advice on optimization. – codeReview Jul 14 '15 at 7:13

The foreach-style loop is pretty common in most languages now as it's rare you need access to the index of the collection and more common you only need the object itself. Furthermore, elements which would require an iterator as their is no random access (e.g. set) can be iterated with the exact same syntax as a randomly accessible collection.

In python, the correct way of accessing the index while iterating should be:

for i, x in enumerate(iterable):

At this point, i is your index and x is the item at iterable[i].


You'll want to look at using the range() function.

for i in range(n):
    A[i] = value

The function can be used as either range(n), which returns a list of integers 0 - n, or as range(start, end) which will return integers from the start value to the end value. For example:

range(1, 5)

will give you the numbers 1, 2, 3, 4, and 5.


Python is a higher-level language than C and iterating over a high-level abstraction such as 'sequence' is more naturally and safely expressed with another one - 'iterator'. C doesn't really have such abstraction so it's hardly surprising it expresses most traversal with a low-level, 'hand-operated' index or pointer increment. That's an artifact of the low-level nature of C, though - it would be silly for a higher-level abstraction to use it as a primary building block for all looping constructs and most, not just Python, don't.


The ideal way to have C-style for loop in python is to use range. Not many are aware of an overloaded function of range(stop) which accepts start, stop and step arguments where step is optional. With this, you could almost do anything that you could with C-style for loops:

range(start, stop[, step])

for (i = 0; i < 10; i++)
>>> range(10)
[0, 1, 2, 3, 4, 5, 6, 7, 8, 9]
for (i = 1; i < 11; i++)    
>>> range(1, 11)
[1, 2, 3, 4, 5, 6, 7, 8, 9, 10]
for (i = 0; i < 30; i=i+5)
>>> range(0, 30, 5)
[0, 5, 10, 15, 20, 25]
for (i = 0; i < 10; i=i+3)
>>> range(0, 10, 3)
[0, 3, 6, 9]
for (i = 0; i > -10; i--)
>>> range(0, -10, -1)
[0, -1, -2, -3, -4, -5, -6, -7, -8, -9]

Check https://docs.python.org/2/library/functions.html#range


First, python has several ways to perform C style for loops with the two most common being (the first you allude to in your post, ie. with the generator object returned by range):

for i in range(some_end_value):
# or the many times preferred
for i, elem in enumerate(some_list):
    print("i is at {0} and the value is {1}".format(i, elem))

As to why python is setup this way, I think this has just become a more convenient and preferred way of setting up foreach-style loops - particuliarly as languages have moved away from the need to define arrays/list with their max index. For instance in one can also do:

for (int i: someArray) {
    system.out.println(i) // which would print the current item of an integer array

(foreach (int i in someArray)) and (for (auto &i: int)) also have their own foreach loops. While in , most people tend to write macros to get the functionality of a foreach loop.

It's just a convenient way to access dynamic arrays, lists, dicts, and other constructs. While loops can be used for activities that must modify the iterator itself - or just a second variable could be created and modified mathematically using the iterator.


The equivalent of the C-loop:

for (i = 0; i < n; i++) A[i] = value; 

i.e., to set all items in an array to the same value if A is a numpy array:

A[:] = value

Or if len(A) > n then

A[:n] = value

If you want to create a Python list with n values:

A = [value] * n #NOTE: all items refer to the *same* object

You could also replace values in the existing list:

A[:n] = [value]*n #NOTE: it may grow if necessary

Or without creating a temporary list:

for i in range(n): A[i] = value

The pythonic way to enumerate all values with corresponding indices while using the values:

for index, item in enumerate(A):
    A[index] = item * item

The code could also be written using a list comprehension:

A = [item * item for item in A] #NOTE: the original list object may survive

Don't try to write C in Python.

  • I would attempt use of the numpy library, but if I'm working on say, a hackerrank.com problem, numpy is disallowed, and besides, I'm trying to learn the basics. +1 anyway. I have basically been using the for i in range` loop pattern since I'd guess it's less expensive than enumerate. – codeReview Jul 24 '15 at 4:18
  • @codeReview: don't optimize prematurely. Use idiomatic code unless your profiler says otherwise. – jfs Jul 24 '15 at 13:08
  • thx for advice, now it takes less time to code a solution, and optimizing would sometimes be unnecessary anyway. – codeReview Jul 27 '15 at 6:06

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